Receiving part of a bone anchoring device and bone anchoring device with such a receiving part

ABSTRACT

A receiving part of a bone anchoring device is provided, where the receiving part includes a first end, a second end opposite to the first end, a central axis extending through the first end and the second end, and a substantially U-shaped-recess adjacent to the first end for receiving a spinal fixation element. The substantially U-shaped recess forms two free legs. The receiving part also includes a bore extending from the first end towards the second end and in communication with the substantially U-shaped recess. A groove is provided in an outer surface of each of the legs, where the groove has a first end and a second end and extends in a circumferential direction in an arcuate shape between the first end of the groove and the second end of the groove. In a plane that includes the central axis and that extends through a center of each leg, a contour of a surface of the groove has at least a first arcuate portion and a second arcuate portion opposing the first arcuate portion, where the contour is substantially free from straight portions.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.15/888,878, filed Feb. 5, 2018, which is a continuation of U.S. patentapplication Ser. No. 15/177,665, filed Jun. 9, 2016, now U.S. Pat. No.9,913,665, which claims the benefit of U.S. Provisional Application Ser.No. 62/173,870, filed Jun. 10, 2015, the contents of which are herebyincorporated by reference in their entirety, and claims priority toEuropean Patent Application EP 15 171 533.1, filed Jun. 10, 2015, thecontents of which are hereby incorporated by reference in theirentirety.

BACKGROUND Field

The present disclosure relates to a receiving part of a bone anchoringdevice, where the receiving part includes a substantially U-shapedrecess for receiving a spinal fixation element, the substantiallyU-shaped recess forming two free legs, and where each leg has a groovein an outer surface thereof for engaging an instrument. In particular,the receiving part is configured for use with an instrument suitable forMIS (minimally invasive surgery). The present disclosure further relatesto a bone anchoring device having such a receiving part and a system ofa bone anchoring device and an instrument, in particular for minimallyinvasive surgery.

Description of the Related Art

U.S. Pat. No. 8,518,082 B2 describes a percutaneous access device whichincludes an inner tube and an outer tube. A bone anchor assembly isdescribed including a bone anchor having a distal bone engaging portionand a receiving member having a recess for receiving a spinal fixationelement. The proximal end of the receiving member may have an arcuategroove formed on an exterior surface thereof to facilitate connection ofan instrument to the receiving member. The arcuate groove has a proximalsurface and a distal surface opposite the proximal surface. The proximalsurface and the distal surface are each angled distally towards anexterior surface of legs of the receiving part and each are oriented atan angle greater than 0° relative to an orthogonal line that is orientedperpendicular to a longitudinal axis of the receiving member. In anotherembodiment, the proximal surface is oriented at an angle betweenapproximately 5° and 30° relative to an orthogonal line that is orientedperpendicular to the longitudinal axis of the receiving member.

SUMMARY

Embodiments of the invention provide an improved receiving part for abone anchoring device, and a bone anchoring device with such a receivingpart that facilitates and/or supports engagement of the receiving partwith an instrument, in particular with a MIS instrument, and that has asimple design. Furthermore, a system of such a receiving part and aninstrument is provided.

A groove is provided in an exterior surface of the receiving part and isdefined by a single curved surface that may have a plurality of portionswith different curvatures and that is substantially free from flatsurface portions. Substantially free from flat surface portions meansthat there are no flat surface portions between arcuate portions. Thecurved surface of the groove facilitates engagement of the receivingpart with an instrument, such as by hooking-in of the instrument, inparticular, the groove facilitates sliding of an engagement portion ofthe instrument into the groove. This is particularly suitable for usingthe bone anchoring device in a MIS procedure with MIS instruments, suchas head extension devices.

The receiving part can be manufactured in an easy and cost-efficientmanner.

Moreover, with the curved surface of the groove, notching effects duringengagement with the instrument are reduced. Hence, the receiving part ismore robust as compared to other receiving parts that have angledsurface portions for engagement with an instrument. Furthermore, it isnot necessary to specifically adapt an instrument to the particularshape of the groove of the receiving part.

The receiving part can be combined with existing instruments. Thisincreases the variety of applications of the receiving part.

A bone anchoring device including such a receiving part may be realizedin any form, such as a top or a bottom loading polyaxial bone anchoringdevice, a bone anchoring device with a receiving part using an innercompression member or an outer ring for locking an angular position ofthe anchoring element, or as a monoaxial bone anchoring device.

BRIEF DESCRIPTION OF THE DRAWINGS

Further features and advantages of the invention will become apparentfrom the description of embodiments by means of the accompanyingdrawings. In the drawings:

FIG. 1 shows an exploded perspective view of a bone anchoring devicewith a receiving part according to a first embodiment;

FIG. 2 shows a perspective view of the bone anchoring device of FIG. 1in an assembled state;

FIG. 3 shows a side view of the bone anchoring device of FIGS. 1 and 2;

FIG. 4a shows a cross-sectional view of the bone anchoring device ofFIGS. 1 to 3, where the cross-section is taken along line A-A in FIG. 3;

FIG. 4b shows an enlarged cross-sectional view of a detail of FIG. 4 a;

FIG. 5 shows a side view of the bone anchoring device of FIGS. 1 to 4 bwith a portion of an instrument attached thereto;

FIG. 6a shows a cross-sectional view of the bone anchoring device ofFIGS. 1 to 5 with a portion of the instrument of FIG. 5;

FIG. 6b shows an enlarged cross-sectional view of a detail of FIG. 6 a;

FIG. 7 shows a perspective view of a second embodiment of a boneanchoring device with a receiving part in an assembled state;

FIG. 8 shows a front view of the bone anchoring device of FIG. 7;

FIG. 9a shows a cross-sectional view of the bone anchoring device ofFIGS. 7 and 8, where the cross-section is taken in a plane including acentral axis of the receiving part and extending through centers of thelegs of the receiving part;

FIG. 9b shows an enlarged cross-sectional view of a detail of FIG. 9 a;

FIG. 10 shows a perspective view of a third embodiment of a boneanchoring device with a receiving part in an assembled state;

FIG. 11 shows a front view of the bone anchoring device of FIG. 10;

FIG. 12a shows a cross-sectional view of the bone anchoring device ofFIGS. 10 and 11, where the cross-section is taken in a plane including acentral axis of the receiving part and extending through centers of thelegs of the receiving part;

FIG. 12b shows an enlarged cross-sectional view of a detail of FIG. 12a;

FIG. 13 shows a front view of a bone anchoring device with a receivingpart according to a fourth embodiment;

FIG. 14a shows a cross-sectional view of the bone anchoring device ofFIG. 13, where the cross-section is taken in a plane including a centralaxis of the receiving part and extending through centers of the legs ofthe receiving part;

FIG. 14b shows an enlarged cross-sectional view of a detail of FIG. 14a;

FIG. 15 shows a front view of a fifth embodiment of a bone anchoringdevice with a receiving part;

FIG. 16a shows a cross-sectional view of the bone anchoring device ofFIG. 15, where the cross-section is taken in a plane including a centralaxis of the receiving part and extending through centers of the legs ofthe receiving part; and

FIG. 16b shows an enlarged cross-sectional view of a detail in FIG. 16a.

DETAILED DESCRIPTION

As shown in FIGS. 1 to 4 b, a bone anchoring device according to a firstembodiment includes an anchoring element 1 with shank 2 having a bonethread in at least a portion thereof and a spherical segment-shaped head3. The shank 2 may be cannulated. An engagement portion 4 may beprovided at a free end surface of the head 3. The anchoring element 1 ispivotably coupled to a receiving part 5. A pressure element 6 isconfigured to exert pressure onto the head 3 to lock an angular positionof the bone anchoring element 1 relative to the receiving part 5. Thereceiving part 5 serves for coupling the bone anchoring element 1 to aspinal fixation element, such as a spinal rod (not shown) that can beinserted into the receiving part 5 and fixed by a locking element (notshown), such as a set screw.

The receiving part 5 may be formed as a substantially cylindrical partwith a first end or top end 5 a, an opposite second end or bottom end 5b, a central axis C that may be an axis of symmetry, a coaxial bore 51extending from the first end 5 a to a distance from the second end 5 b,a seat 52 for the head 3 of the bone anchoring element 1, and a loweropening 53 at the bottom end 5 b. The seat 52 may have a spherical shapeadapted to a shape of the head 3, but may also have any other shape thatis suitable for allowing a pivoting motion of the head 3 in the seat 52,such as a conically narrowing shape. Adjacent to the first end 5 a, anadvancement structure 54, such as an internal thread, may be providedfor allowing the locking element to be advanced into the bore 51.

A substantially U-shaped recess 55 extends from the first end 5 atowards the second end 5 b. The recess 55 serves for receiving thelongitudinal spinal fixation element (not shown) therein, such as a rod.The recess 55 forms two free legs 56 a, 56 b. In an outer surface ofeach of the legs 56 a, 56 b, circumferentially extending grooves 57 a,57 b are formed for engagement with an instrument that holds thereceiving part 5 during a surgical procedure. The grooves 57 a, 57 b arelocated at a distance from the first end 5 a in the axial direction ofthe receiving part 5.

In the circumferential direction, the grooves 57 a, 57 b respectivelyextend along an entire width of each leg 56 a, 56 b from one end of achannel formed by the U-shaped recess 55 to a second end of the channeland have ends that are open towards the U-shaped recess 55. Because ofthe substantially cylindrical shape of the receiving part 5, the grooves57 a, 57 b have an arcuate shape in the circumferential direction with acenter of curvature lying on the central axis C.

Referring to FIGS. 4a and 4b , the shape of the grooves 57 a, 57 b isfurther described in more detail. The surface forming the grooves 57 a,57 b is entirely curved, for example, by curved portions without anyflat portions between the curved portions. In a cross-sectional view, acontour of the surface forming each groove 57 a, 57 b forms an arcuateline with a first arcuate portion 501 and a second arcuate portion 502opposing the first arcuate portion 501. The arcuate line issubstantially free from straight portions, and in particular, betweenthe first arcuate portion 501 and the second arcuate portion 502. Thefirst arcuate portion 501 is at a greater distance from the first end 5a than a distance between the second arcuate portion 502 and the firstend 5 a. In the cross-sectional views of FIGS. 4a and 4b , the firstarcuate portion 501 is concave and the second arcuate portion 502 isconcave. Moreover, the first arcuate portion 501 rises constantly fromthe exterior surface of each respective leg 56 a, 56 b towards the firstend 5 a of the receiving part 5. The second arcuate portion 502 alsorises constantly from the exterior surface of each respective leg 56 a,56 b towards the first end 5 a of the receiving part. Preferably, therise of the first arcuate portion 501 is steeper than the rise of thesecond arcuate portion 502. Hence, in the cross-sectional views of FIGS.4a and 4b , the contour of the arcuate line may resemble a saw-toothwhere all straight or angled portions are rounded.

Moreover, the first arcuate portion 501 may include sub-portions 501 m,501 n having different radii of curvature. For example, the firstsub-portion 501 m, which is closer to the exterior surface of thereceiving part 5, may have a smaller radius of curvature than the secondsub-portion 501 n, which is farther away from the exterior surface. Thismay be similar for the second arcuate portion 502. The sub-portionsconstantly adjoin each other.

The first arcuate portion 501 and the second arcuate portion 502 are incommunication with each other through a third arcuate portion 503 thatis farthest away in a radial direction from the exterior surface of eachleg 56 a, 56 b and that has a smaller radius of curvature than the firstarcuate portion 501 and the second arcuate portion 502.

As can be seen in FIGS. 1 to 3, the cross-section of each groove 57 a,57 b is the same along the entire length of the grooves 57 a, 57 b.Also, the grooves 57 a, 57 b on each leg 56 a, 56 b have a mirrorsymmetrical shape.

Turning again to FIGS. 1 and 4 a, the pressure element 6 is asubstantially cylindrical part that has an outer diameter that is onlyslightly smaller than an inner diameter of the coaxial bore 51 of thereceiving part 5. A U-shaped recess 61 for receiving the spinal fixationelement is provided that is, in the assembled state, aligned with theU-shaped recess 55 of the receiving part 5. At a side of the pressureelement 6 facing the head 3, a substantially spherical recess 62 isprovided for contacting the head 3 (FIG. 4a ). In addition, a coaxialbore 63 may be provided for allowing access to the head 3 with a driver.

Referring to FIGS. 5 to 6 b, an instrument 100, such as an extensiondevice, is provided for use with the bone anchoring device, inparticular, for use in minimally invasive surgery. The instrument 100includes a first sleeve 10 that forms an outer sleeve, a second sleeve11 that forms an inner sleeve and that is positionable within the firstsleeve 10, and a mechanism (not shown) for displacing the second sleeve11 relative to the first sleeve 10 in an axial direction. When the firstsleeve 10 and the second sleeve 11 are assembled, the extension devicecan be used to place the parts of a spinal stabilization system in apatient's body using a minimally invasive procedure. Each of the firstsleeve 10 and the second sleeve 11 has elongate substantially U-shapedslits 12 that have a reverse U-shape compared to the recess 55 in thereceiving part 5, such that the first sleeve 10 and the second sleeve 11are each separated into two arms 10 a, 10 b, 11 a, 11 b, respectively,that are configured to engage the corresponding legs 56 a, 56 b of thereceiving part 5. The slits 12 have a width in a circumferentialdirection that is greater than a diameter of the spinal fixationelement, such that the slits 12 permit the spinal fixation element to bepassed through the slits 12. Due to the slits 12, the arms of the firstsleeve 10 are slightly flexible in a direction perpendicular to thesleeve axis, such that the first sleeve 10 can be snapped onto the legs56 a, 56 b of the receiving part 5. A free end surface 110 of the secondsleeve 11 is configured to contact the first end 5 a of the receivingpart 5. At a distance from a free end of the first sleeve 10, acircumferential inner projection 111 is provided that is configured toengage the grooves 57 a, 57 b. The shape of the circumferentialprojection 111 may be any shape that is suitable to engage the grooves57 a, 57 b. However, the shape of the circumferential projection 111does not need to have the same shape as the shape of the grooves 57 a,57 b (see FIG. 6b ). This allows using other instruments with differentshapes in combination with the bone anchoring device.

The parts of the bone anchoring device can be made of a bio-compatiblematerial, such as a bio-compatible metal, a bio-compatible metal alloy,for example, stainless steel, titanium, nickel-titanium (NiTi) alloys,such as Nitinol, magnesium or magnesium alloys, or from a bio-compatibleplastic material, such as, for example, polyether ether ketone (PEEK) orpoly-l-lactide acid (PLLA). The parts can be made of the same materialor of different materials.

In clinical use, the extension device is attached to the receiving part5 of the bone anchoring device. The bone anchoring device may beimplanted through a minimally invasive procedure, for example, into apedicle of a vertebra. The instrument may be connected to the boneanchoring device either before or after implantation of the boneanchoring device into a patient's body. The attachment of the instrumentto the receiving part is achieved by first moving the first sleeve 10towards the receiving part 5. When the arms 10 a, 10 b of the firstsleeve 10 contact and are pushed against the first end 5 a of thereceiving part 5, the arms 10 a, 10 b are spread to a certain extent andthe projections 111 snap into the grooves 57 a, 57 b by a furtherdownward movement. The engagement of the grooves 57 a, 57 b by theinstrument is facilitated by the curved surface of the grooves 57 a, 57b. Because of the curved surface of the grooves 57 a, 57 b, notchingeffects and jamming are prevented and the engagement projection 111 ofthe instrument slides smoothly into the grooves 57 a, 57 b. At the sametime, due to the structure of the grooves 57 a, 57 b, inadvertentdisengagement of the instrument from the receiving part 5 can beprevented.

Then, the second sleeve 11 is moved relative to the first sleeve 10towards the receiving part 5 until the free end surface 110 of thesecond sleeve 11 presses onto the first end 5 a of the receiving part 5.Thereby, the receiving part 5 is firmly held by the arms 10 a, 10 b, 11a, 11 b of the first sleeve 10 and the second sleeve 11, respectively,of the instrument.

A plurality of bone anchoring devices may be implanted in a surgicalprocedure, and each receiving part of the plurality of bone anchoringdevices may be connected to a separate extension device. By rotating theextension devices, the U-shaped recesses 55 of the receiving parts 5 ofthe plurality of bone anchors can be aligned to permit insertion of arod therein. The rod can be inserted through the slits 12 of theextension devices and placed into the U-shaped recesses 55 of thereceiving parts 5. The rod can be fixed with a locking element that isguided through the extension device until the locking element can bescrewed between the legs 56 a, 56 b of the receiving part 5. With theextension devices, compression or distraction procedures can beperformed using minimally invasive techniques.

Referring to FIGS. 7 to 9 b, a second embodiment of a bone anchoringdevice having a receiving part 5′ will be described. Parts and portionsthat are identical or similar to the first embodiment are marked withthe same reference numerals, and the description thereof is notrepeated. The receiving part 5′ includes grooves 57 a′, 57 b′ with anundercut seen from the exterior surface of the legs 56 a, 56 b. Thefirst arcuate portion 501′ of each of the grooves 57 a′, 57 b′ may besimilar to that of the first embodiment. In a cross-sectional view asdepicted in FIGS. 9a and 9b , the second arcuate portion 502′ includes afirst sub-portion 502 m′, which is convex, and a second sub-portion 502n′, which is concave. As a result, the second arcuate portion 502′ has asimilar steepness as compared to the first arcuate portion 501′ and anundercut is provided by the change of the radii of curvature of thesub-portions 502 m′, 502 n′. A third arcuate portion 503′ may have asame radius of curvature as the second sub-portion 502 n′ and maycontinue directly into the first arcuate portion 501′. This shape of thegrooves 57 a′, 57 b′ can further reduce the risk of inadvertentdisengagement of the instrument from the receiving part 5′.

Referring to FIGS. 10 to 12 b, a third embodiment of a bone anchoringdevice having a receiving part 5″ will be described. Parts and portionsthat are similar or identical to the previous embodiments are markedwith the same reference numerals and the description thereof is notrepeated. The receiving part 5″ of the third embodiment differs from thereceiving part of the previous embodiments by the shape of the grooves57 a″, 57 b″. More in detail, the first arcuate portion 501″ has asingle radius of curvature such that the entire first arcuate portion501″ forms a segment of a circle. Compared to the previous embodiments,the radius of curvature of the first arcuate portion 501″ is smallerthan that of the first arcuate portions of the previous embodiments. Thesecond arcuate portion 502″ has a considerably greater radius ofcurvature than the radius of curvature of the first arcuate portion501″. Also, a length of the second arcuate portion 502″ is considerablyshorter than a length of the first arcuate portion 501″. The thirdarcuate portion 503″, which forms a transition between the first arcuateportion 501″ and the second arcuate portion 502″, has a considerablysmaller radius of curvature than the first and second arcuate portionssuch that the transition has the shape of a rounded corner, for example,a rounded, nearly 90° corner. This design provides guidance for theinstrument via the first arcuate portion 501″ and facilitatesdisengagement of the instrument from the receiving part 5″ by theslightly arcuate second arcuate portion 502″.

Referring to FIGS. 13 to 14 b, a fourth embodiment of a bone anchoringdevice having a receiving part is described. Parts and portions that areidentical or highly similar to that of the previous embodiments aremarked with the same reference numerals and the description thereof isnot repeated. The receiving part 5″ of the fourth embodiment differsfrom the receiving parts of the previous embodiments in the shape of thegrooves 57 a″, 57 b″. The grooves 57 a″, 57 b″ each include a firstarcuate portion 501″ with a single radius of curvature, and oppositethereto a second arcuate portion 502″ with a single radius of curvaturethat is considerably smaller than the radius of curvature of the firstarcuate portion 501″. Each of the grooves 57 a″, 57 b″ further includesa transition portion 503″ with a radius of curvature that is between theradius of curvature of the first arcuate portion 501″ and the radius ofcurvature of the second arcuate portion 502″. A contour of the arcuateline formed by the grooves 57 a″, 57 b″ resembles a deformed circlesegment wherein the first arcuate portion 501″ is slightly bent outward.This design allows an easy snap-in of the instrument into the grooves 57e, 57 b″ and also prevents notching effects.

A fifth embodiment of the bone anchoring device will be described withreference to FIGS. 15 to 16 b. The receiving part 500 of the fifthembodiment differs from the receiving parts of the previous embodimentsby the shape of the grooves 570 a, 570 b. The grooves 570 a, 570 b have,in a cross-sectional view, a contour of a segment of a circle. Hence,the first arcuate surface portion 510, the second arcuate surfaceportion 520, and the third arcuate surface portion 530 all haveidentical radii of curvature and the same center of curvature. Thisdesign is particularly easy to manufacture and also prevents notchingeffects.

Modifications of the above-described embodiments are conceivable. Whilethe embodiments show a particular type of receiving part which permitsthe bone anchoring element to be inserted therein from the first end ofthe receiving part, a so-called top-loading polyaxial bone anchoringdevice, any other type of receiving part may be provided having groovesaccording to the embodiments described. Such other embodiments ofreceiving parts may be bottom-loading receiving parts, where the loweropening of the receiving part is large enough to insert the boneanchoring element therein from the bottom end of the receiving part.This may be particularly useful for polyaxial bone anchoring deviceswhere the bone anchoring element is first implanted into a bone and thereceiving part is mounted to the bone anchoring element thereafter.Other types of receiving parts may include a receiving part with aninner compression member or a receiving part using an outer ring tocompress the head of the bone anchoring element to lock an angularposition of the bone anchoring element relative to the receiving part.While the embodiments show a polyaxial bone anchoring device, thereceiving part may also be a receiving part of a monoaxial boneanchoring device, having a shank that is fixedly connected to thereceiving part. Also, monoplanar bone anchoring devices that permit theanchoring element to pivot only in a single plane may be provided withthe grooves. In addition, receiving parts that allow a greater pivotangle of the bone anchoring element to one side or an adjustable greaterpivot angle may be provided with the grooves according to theembodiments.

The shank of the bone anchoring element can have any suitable shape andstructure for anchoring in the bone, such as a threaded shank, a shankwith barbs, a nail, a cannulated shank with or without openings in thewall, a non-cannulated shank, and the like. For polyaxial bone anchoringdevices, the head of the bone anchoring element can have any shape thatallows pivoting in the receiving part.

In a further modification, the grooves may end at a distance from theU-shaped recess in the circumferential direction. For particularapplications, the grooves may have a different shape on one leg ascompared to the other leg. In particular, any shape of the groovesdescribed above may be provided on one leg and another shape of thegrooves described above may be provided on the other leg.

The bone anchoring device with the receiving part and the system of aninstrument with the bone anchoring device are not limited to use inminimally invasive surgery, but can also be used in conjunction with allother surgical procedures and/or minimally open surgical procedures.

It shall be noted that features of the embodiments described above canbe combined with features of other embodiments, mixed and matched toproduce a variety of further embodiments.

While the present invention has been described in connection withcertain exemplary embodiments, it is to be understood that the inventionis not limited to the disclosed embodiments, but is instead intended tocover various modifications and equivalent arrangements included withinthe spirit and scope of the appended claims, and equivalents thereof.

1. A receiving part of a bone anchoring device, the receiving partcomprising: a first end, a second end opposite to the first end, acentral axis extending through the first end and the second end, asubstantially U-shaped-recess adjacent to the first end for receiving aspinal fixation element, wherein the recess forms two free legs, and abore extending from the first end in the direction of the second end andbeing in communication with the recess, and a groove formed in an outersurface of each of the legs, wherein the groove has a first end and asecond end and extends in a circumferential direction in an arcuateshape between the first end of the groove and the second end of thegroove, wherein in a plane that includes the central axis and thatextends through a center of each leg, a contour of a cross-section ofeach groove comprises at least a first arcuate portion and a secondarcuate portion.
 2. The receiving part of claim 1, wherein the firstarcuate portion has at least one first radius of curvature and thesecond arcuate portion has at least one second radius of curvature, andwherein a third arcuate portion is provided that is located farthestfrom the exterior surface of each leg in a direction perpendicular tothe central axis and that has a third radius of curvature of which issmaller than the first radius of curvature.
 3. The receiving part ofclaim 2, wherein the third radius of curvature is smaller than thesecond radius of curvature.
 4. The receiving part of claim 1, whereinthe first arcuate portion rises constantly from the exterior surface ofthe legs towards the first end of the receiving part.
 5. The receivingpart of claim 1, wherein the second arcuate portion rises constantlyfrom the exterior surface of the legs towards the first end of thereceiving part.
 6. The receiving part of claim 5, wherein the secondarcuate portion rises less steep than the first arcuate portion.
 7. Thereceiving part of claim 1, wherein the grooves extend in acircumferential direction along an entire width of the legs so that theyare open towards the recess.
 8. The receiving part of claim 1, whereinthe first arcuate portion is convex when seen from the first end of thereceiving part.
 9. The receiving part of claim 1, wherein the secondarcuate portion is concave when seen from the first end of the receivingpart.
 10. The receiving part of claim 1, wherein the second arcuateportion is convex and is followed by a concave arcuate portion when seenfrom the first end of the receiving part such that an undercut isprovided.
 11. The receiving part of claim 1, wherein the first arcuateportion has more than one radius of curvature.
 12. The receiving part ofclaim 1, wherein the second arcuate portion comprises more than oneradius of curvature.
 13. The receiving part of claim 1, wherein thecontour of the surface of the groove is the same over the entire lengthof the groove in the circumferential direction.
 14. A bone anchoringdevice including a bone anchoring element having a shank for anchoringin bone and the receiving part of claim
 1. 15-16. (canceled)